Add to ORKGOne of the goals of the HOST Program is the development of electrical resistance strain gages for static strain measurements at temperatures equal to or greater than 1273 K. Strain gage materials must have a reproducible or predictable response to temperature, time and strain. It is the objective of this research to investigate criteria for the selection of materials for such applications through electrical properties studies. The results of the investigation of two groups of materials, refractory compounds and binary alloy solid solutions are presented
A temperature compensated static strain gage, which is fabricated from palladium-13w/o chromium (Pd1...
In this work the experimental results of a tests campaign on Inermet® and pure Molybdenum are presen...
Electrical-resistance strain gauges - high strain response, hysteresis, strain sensitivity, creep, z...
Materials were evaluated that could be used in manufacturing electrical resistance strain gages for ...
A study was done on the electrical resistance of materials that are potentially useful as resistance...
The objective of this program is to develop electrical resistance strain gages which will permit the...
The objective was to study the electrical resistances of materials that are potentially useful as re...
The literature, applicable theory and finally an experimental program were used to identify new cand...
Test results on suitability of 15 alloys for use in strain gages at temperatures up to 1200 deg
The principal activity under the HOST effort to improve the state of the art in high temperature sta...
Conventional resistance strain gage technology uses "bonded" strain gages. These foil or wire gages ...
Since 1987, a very substantial amount of R&D has been conducted in an attempt to develop reliable st...
A newly developed alloy, palladium-13 weight percent chromium (Pd13Cr), was identified by United Tec...
An electrical resistance strain gage that can provide accurate static strain measurement to a temper...
A temperature-compensated resistance static strain gage with potential to be used to 600 C was recen...
A temperature compensated static strain gage, which is fabricated from palladium-13w/o chromium (Pd1...
In this work the experimental results of a tests campaign on Inermet® and pure Molybdenum are presen...
Electrical-resistance strain gauges - high strain response, hysteresis, strain sensitivity, creep, z...
Materials were evaluated that could be used in manufacturing electrical resistance strain gages for ...
A study was done on the electrical resistance of materials that are potentially useful as resistance...
The objective of this program is to develop electrical resistance strain gages which will permit the...
The objective was to study the electrical resistances of materials that are potentially useful as re...
The literature, applicable theory and finally an experimental program were used to identify new cand...
Test results on suitability of 15 alloys for use in strain gages at temperatures up to 1200 deg
The principal activity under the HOST effort to improve the state of the art in high temperature sta...
Conventional resistance strain gage technology uses "bonded" strain gages. These foil or wire gages ...
Since 1987, a very substantial amount of R&D has been conducted in an attempt to develop reliable st...
A newly developed alloy, palladium-13 weight percent chromium (Pd13Cr), was identified by United Tec...
An electrical resistance strain gage that can provide accurate static strain measurement to a temper...
A temperature-compensated resistance static strain gage with potential to be used to 600 C was recen...
A temperature compensated static strain gage, which is fabricated from palladium-13w/o chromium (Pd1...
In this work the experimental results of a tests campaign on Inermet® and pure Molybdenum are presen...
Electrical-resistance strain gauges - high strain response, hysteresis, strain sensitivity, creep, z...